Razer Blade 15 (D3NT/ 15.6/ FHD/ 60Hz/ i7/ 16GB/ GTX 1660Ti/128GB+1TB)
It’s All Screen
Get more out of your viewing experience with minimal bezel distraction and color accurate individually calibrated displays.
With a Full HD, 1920 x 1080 display and refresh rates of up to 240Hz, on-screen action is incredibly smooth and fluid. Enjoy colorful and accurate visuals with the thin bezel, factory calibrated 15.6“ display, with support for 100% sRGB color.
Ultra-thin Anodized Unibody Aluminum Frame
The precision crafted aluminum chassis is packed with features—despite being as thin as 0.70”
Measurably More Mobile
The Razer Blade 15 has the smallest footprint of any 15.6" gaming laptop while also being one of the thinnest in its class. Other similarly configured laptops are double the volume, and over an inch bigger in both depth and width.
Crafted from a single block of aluminum and CNC milled to exact precision, the Razer Blade features a black anodized finish accented by green USB ports and a backlit green triple-headed snake embedded in the display cover
Packed With Power
Both the Base Model and the Advanced Model of the Razer Blade 15 gaming laptop are now available with a 9th Gen Intel® Core™ i7 6 Core processor paired with NVIDIA® GeForce RTX™ or GeForce™ GTX 1660 Ti graphics . A potent combination capable of simultaneously playing and streaming the latest games including support for real-time ray tracing, or powering through creative tasks with ease.
Supported by fast and upgradeable dual-channel memory, the Razer Blade 15 gaming laptop is available in two tiers - a Base Model with dual storage capable of supporting a SSD for speed and a HDD for capacity, or the Advanced Model with a pure SSD solution in a thinner chassis.
Small Laptop. Big Cooling
The Advanced Models of the Razer Blade 15 utilizes a custom vapor chamber and cutting-edge thermal materials to efficiently and quietly dissipate heat for maximum performance and user comfort. The Base Model features a bespoke heat pipe system, capable of handling the thermal needs under the heaviest of loads.